# Tag Info

## Hot answers tagged division

4

Just use float.is_integer(). For example, as expressed by OP: >>> num1 = 6 / 3 # 2.0 >>> num1.is_integer() True >>> num2 = 7 / 3 # 2.33 >>> num2.is_integer() False No need for anything complex here- and implementing this into your function should be easy.

3

Given: CGFloat progress = (CGFloat)totalBytesWritten / (CGFloat)totalBytesExpectedToWrite; It's completely reasonable to assume progress == 1.0 if (CGFloat)totalBytesWritten == (CGFloat)totalBytesExpectedToWrite is true. This should in turn be true if totalBytesWritten == totalBytesExpectedToWrite, assuming the compiler is standards-conforming, but that ...

3

Try this: double x = 200; // use a double instead of an int The problem? you were dividing two ints, and the result is another int. By converting one of the two operands to a double, the division will now yield a number with decimals.

3

In Python 2, dividing 2 integers will always produce an integer. (In Python 3, you get "real" division) You can rewrite your code as: [n/2.0 for n in range(100, 200)] or in the case where you have 2 variables: [float(n)/othervar for n in range(100, 200)] to get the expected behavior, or add from __future__ import division at the start of the file ...

2

You're doing integer division, which results in an integer value. If you add a decimal place to either one of the operands then it isn't integer division anymore: groovy:000> percentageFee = 285L ===> 285 groovy:000> percentageFee / 100.0 ===> 2.85 Here 100.0 is a BigDecimal.

2

It could have been an optimization, but unfortunately produces the same IL as a division PLUS a mod operation. On typical architectures (x86 & friends) the two can be obtained from a single operation, but .NET JIT seems not to optimize that (in my tests). So the following two are equivalent: quotient = Math.DivRem(10, 3, out remainder); VS: ...

2

The safe check using the result of the floating point division would be something like: if (progress > (1.0f - FLT_EPSILON)) However, assuming the numbers of bytes are integers, you can simply check: if (totalBytesWritten == totalBytesExpectedToWrite) edit: If, as per comments, you cannot pass the integers on to wherever you need to do this check, ...

2

There are few this i would like to point out. First return type of main function void main() it should be int main(). Don't use using namespace std; for more detail visit Why is "using namespace std;" considered bad practice? Finally problem in your code you cannot insert an integer into to a string using +, you will have to extraction operator ...

2

void main() is not a valid signature for your main function (though, VS will recognize it, it is not standard-compliant). It should be int main(). You cannot insert an integer into to a string using +. You need to use the extraction operator of std::ostream: operator<<. What you have will result in pointer arithmetic (adding the result from doIt ...

2

Using C++ streams, you should cout << "test: " << doIt(myfav), rather than trying to + them together. I'm not sure off the top of my head whether << or + takes precedence, but regardless of whether you're adding to a stream or a string literal, that's not going to work very well.

2

In Java there is a BigInteger class, for when you need unlimited precision using whole numbers. For decimal numbers, use BigDecimal Wolfram Alpha will give you 2.243754834308400900535121747859167616725725368773485418854923..., and our figure is 2.243754834308401, which is same as bigDecimal1.divide(bigDecimal2, MathContext.DECIMAL64) If you will go for ...

1

If you check the calculation in Wolfram Alpha, you'll see that the exact result is 2.243754834308400900535121747859167616725725368773485418854923... Your figure of 2.243754834308401 is dead on. Unless you need more precision, the calculation with doubles will suffice.

1

Try decimal d = numericUpDown1.Value / numericUpDown2.Value ; label1.Text = string.Format( "Ratio: {0}" , Math.Round(d,3) , MidpointRounding.ToEven ) ; Or decimal d = numericUpDown1.Value / numericUpDown2.Value ; label1.Text = string.Format( "Ratio: {0:0.000}" , Math.Round(d,3) , ...

1

So to not have all the things in the comments I post an answer. The "problem" on screen-/ viewport widths of 380px and below has several issues. On your outer <div> with the class slider-wrapper3 (it's the one which holds the iPhone as background image) you should use the following in your CSS: .slider-wrapper3 { background-size: contain; /* you ...

1

You can use standard expr command that implements integer arithmetic. awk 'BEGIN{"expr 3 / 2" | getline result; print result;}' # outputs 1 This is really awkward, long, slow, … But. As you wrote, AWK implements only floating point arithmetic. Round-off errors may occur. If you just truncate the value of a float expression with int(), you may get ...

1

Try [n/2.0 for n in range(100, 200)] to make it a float operation. By passing 2 as an integer and all numbers in the range as an integer Python is treating the result as an integer. You need Floating Point Arithmetic. See here for more details.

1

This will convert your A values to NA (not available): dt\$A[-1] <- ifelse(dt\$A[-1] / head(dt\$A[-1], -1) > 2, NA, dt\$A[-1]) Now you can decide what to do with thoses NAs in your column A, e.g. delete the rows: dt <- dt[!is.na(dt\$A), ] This will also work for all columns like this: dt[, -1] <- sapply(dt[, -1], function(x) { x[-1] <- ...

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